cxr704060 - c02.athitmen.c02.at/files/docs/psp/a6806322.pdf · m5 n2 p4 r1 p2 t1 n5 r2 p5 u1 t2 t3...
TRANSCRIPT
– 1 –
CXR704060
208 pin TFLGA (Plastic)
E02655-PS
Sony reserves the right to change products and specifications without prior notice. This information does not convey any license byany implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating theoperation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.
CMOS 32-bit Single Chip Microcomputer
DescriptionThe CXR704060 is a CMOS 32-bit microcomputer
integrating on a single chip a micro processor unithaving a 32-bit RISC CPU as its core, and a signalprocessing block having an accelerator circuit suitedfor arithmetic signal processing. Adoption of thisarithmetic signal processing accelerator circuitenables flexible support of various signal processingsystems.
The microcomputer block incorporates Memory Stickinterface, a MagicGate, FLASH memory interface,USB interface, D/A converter for audio applications,A/D converter, serial interface, I2C bus interface,timer and PWM pulse generator as well as basicconfigurations like a 32-bit RISC CPU, ROM, RAM,and I/O ports. It also provides the idle/sleep/stopfunctions that enable lower power consumption.
Features• CPU SR11 series 32-bit RISC CPU core (ARM7TDMI)• Minimum instruction cycle 44.29ns (fSRC: 22.5792MHz)• Incorporated ROM 192K bytes• Incorporated RAM 256K bytes• Peripheral hardware
— Bus interface unit 16-bit data bus, 24-bit address bus, 5 chip select outputs— DMA controller 4 channels— A/D converter 10-bit 8-analog input, successive approximation method— Serial interface Clock synchronization, 1 channel (Incorporated 128-byte buffer RAM)
Clock synchronization, 1 channel (Incorporated 32-byte buffer RAM)Asynchronization, 2 channels
— 8-bit timer 8 channels (timer output)— Time-base timer— Prescaler— Watchdog timer 16 bits × 1 channel— PWM pulse generator 8 bits × 1 channel— 16-bit D/A converter for audio applications
L channel, R channel— Memory Stick interface 1 channel— MagicGate— Serial interface for EEPROM Serial interface for CXK2000, 1 channel— USB interface Conforms to USB1.1, internal transceiver— Flash memory interface 1-bit error correction function— External interruption 10 channels (polarity selection and both edge detection possible)
• Accelerator for arithmetic signal processing• Standby mode Idle/sleep/stop• Package 208-pin plastic TFLGA
StructureSilicon gate CMOS IC
– 2 –
CX
R704060
Block Diagram
PO
RT
A
3
PO
RT
B
8
PO
RT
C
4
PO
RT
D
8
PO
RT
E
8
PO
RT
F 41
PO
RT
G
4
PO
RT
I
8
PO
RT
J
5
PO
RT
K
8
PO
RT
L
8
PO
RT
M
8
PO
RT
N
8
PO
RT
O
8
PO
RT
P
2
PO
RT
Q
8
PO
RT
R
8
8
7
2 2 5 248 16
2
2
8
DM
AC
(C
H1)
DM
AC
(C
H0)
INT
ER
RU
PT
CO
NT
RO
LLE
R
DM
AC
(C
H3)
DM
AC
(C
H2)
VIR
TU
AL
MO
BIL
E E
NG
INE
AR
M7T
DM
IC
PU
CO
RE
CLO
CK
GE
NE
RAT
OR
/S
YS
TE
M C
ON
TR
OLL
ER
RO
M19
2K B
YT
ES
RA
M25
6K B
YT
ES
PR
ES
CA
LLE
R/
TIM
E B
AS
E T
IME
R
WAT
CH
DO
G T
IME
RF
LAS
H M
EM
OR
YIN
TE
RFA
CE
BUS INTERFACE UNIT
EXTERNAL BUSME
MO
RY
ST
ICK
INT
ER
FAC
E
MA
GIC
GAT
E C
OR
E
EE
PR
OM
SE
RIA
LIN
TE
RFA
CE
US
B IN
TE
RFA
CE
D/A
CO
NV
ER
TE
R
A/D CONVERTERAN0 to AN7
SCS0SI0
SO0SCK0
SCS1SI1
SO1SCK1
TxD0RxD0
TxD1RxD1SDASCL
EC0
T1EC2
T3
BEEP
PWM
AVDDA
AVSDA
VREFR
VREFL
SERIAL INTERFACE(CH0)
RAM
SERIAL INTERFACE(CH1)
RAM
I2C BUS INTERFACE RAM
UART (CH0)
UART (CH1)
8-BIT TIMER/COUNTER (CH0)
8-BIT TIMER (CH1)
8-BIT TIMER/COUNTER (CH2)
8-BIT TIMER (CH3)
8-BIT TIMER (CH4)
8-BIT TIMER (CH5)
8-BIT TIMER (CH6)
8-BIT TIMER (CH7)
PWM PULSE GENERATOR
TD
I
TM
S
TC
K
TR
ST
TD
O
AV
DM
O
AV
SO
SC
DR
EQ
0
MS
INS
VB
US
(US
B S
US
PE
ND
)
AV
DA
D
AV
SA
D
INT
3 to
INT
9
DA
CK
0D
RE
Q1
DA
CK
1
RS
T
EX
TAL
XTA
L
AO
UT
RA
OU
TL
MU
TF
GR
MU
TF
GL
FS
256
AD
DT
DA
DT
XB
CK
LRC
K
TR
ON TX
TE
XU
DM
UD
PV
BU
SA
VS
PLL
AV
DP
LLV
DIO
US
AV
DU
O
KR
BK
CS
KC
LKK
DO
KD
I
MS
INS
MS
DIO
MS
SC
LKM
SB
SV
DIO
MS
FW
PF
RE
FW
E
FALE
FC
LE
LWR
/LB
UW
R/U
B
WE
RE
WA
IT
FR
B0
to F
RB
1
FC
E0
to F
CE
1
FAD
0 to
FA
D7
CS
0, C
S1,
C
S5
to C
S7
D0
to D
15
A0
to A
23
VD
IOD
F
– 3 –
CXR704060
Pin Assignment (Top View) 208-pin TFLGA package
100 105 103 91 97 99 92 88 79 80 73 69 65 58 56 57 59 51
152 158 159 163 166 169 174 178 183 182 184 192 196 200 202 208 2 5
113 110 104 102 98 95 94 86 82 76 72 66 60 54 49 45
146 147 154 165 173 177 180 187 191 193 195 199 1 4 13 15
148 151 157 164 171 175 179 185 189 194 197 205 203 207 12 11
118 116 108 100 111 96 90 84 78 74 68 62 50 44 46 41
120 121 114 115 48 40 43 39
123 122 117 119 42 35 38 37
128 126 124 125 36 30 34 33
129 131 127 130 32 27 31 29
134 133 132 136 26 21 28 24
135 139 137 138 18 16 25 23
140 141 143 145 14 10 22 20
142 144 149 155 8 6 17 19
112 107 106 53 52 47
150 153 156 3 7 9
101 93 89 87 85 83 81 77 75 71 70 67 64 63 61 55
160 161 162 167 168 170 172 176 181 186 188 190 198 201 204 206
1
V
U
T
R
P
N
M
L
K
J
H
G
F
E
D
C
B
A
V
U
T
R
P
N
M
L
K
J
H
G
F
E
D
C
B
A
23456789101112131415161718
123456789101112131415161718
– 4 –
CXR704060
• Pin Assignment Table
PinNo.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
Pinposition
E5
B2
C3
E4
B1
F4
C2
F5
C1
G4
D1
D2
E2
G5
E1
H4
F2
H5
F1
G1
J4
G2
H1
J1
H2
J5
K4
J2
K1
L4
K2
K5
L1
L2
M4
L5
Pin function
VDIO0
PM4/A12
PM5/A13
PM6/A14
PM7/A15
PN0/A16
PN1/A17
PN2/A18
PN3/A19
PN4/A20
PN5/A21
PN6/A22
PN7/A23
DVSS7
FAD0
FAD1
FAD2
FAD3
FAD4
FAD5
FAD6
FAD7
FCLE
FALE
VDIODF
FWE
FRE
FWP
FCE0
FRB0
FCE1
FRB1
PP0
PP1
DVDD0
DVSS1
PinNo.
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
Pinposition
M1
M2
N1
N4
P1
M5
N2
P4
R1
P2
T1
N5
R2
P5
U1
T2
T3
R4
V2
U4
U3
U5
U2
R5
V3
P6
V4
V5
U6
R6
V6
P7
U7
V7
V8
R7
Pin function
VDIO1
PO0/D0
PO1/D1
PO2/D2
PO3/D3
PO4/D4
PO5/D5
PO6/D6
PO7/D7
PB0/D8
PB1/D9
PB2/D10
PB3/D11
PB4/D12
PB5/D13
PB6/D14
PB7/D15
PA0/PWM
PA1/SDA
PA2/SCL
PC0/SCK0
PC1/SO0
PC2/SI0
PC3/SCS0
DVSS2
VDIO2
KDI
KRB
KCLK
KCS
KDO
TEST4
PE0/TxD0
PE1/RxD0
PE2/TXD1
PE3/RXD1
PinNo.
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
Pinposition
U8
P8
V9
R8
V10
P9
U10
U9
V11
R9
V12
P10
V13
R10
V14
U11
V15
P11
U15
U12
V16
R11
R12
P12
U14
R13
U13
P14
V17
R14
U16
R15
U17
T16
T17
P15
Pin function
PE4/SCK1
PE5/SO1
PE6/SI1
PE7/SCS1
TEST5
DVDD1
DVSS3
VDIO3
PF0/EC0/INT3
PF1/T1
PF2/EC2/INT4
PF3/T3
PF4/BEEP
PG0/DACK0
PG1/DREQ0/INT5
PG2/DACK1/INT6
PG3/DREQ1/INT7
TEST2
TEST3
TEST0
TEST1
TEST6
EVA
AVSAD
AVDAD
AN0
AN1
AN2
AN3
AN4
AN5
AN6/INT8
AN7/INT9
RST
RAMBK
VDBK
– 5 –
CXR704060
PinNo.
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
Pinposition
U18
R17
P13
T18
R18
N15
N14
P17
M15
P18
M14
N18
N17
M17
M18
L15
L14
L17
K15
L18
K18
K14
K17
J15
J17
J18
H18
J14
H15
H14
H17
G18
G17
F18
Pin function
TDI
TMS
TCK
TRST
TDO
VDIOJT
DVDD2
DVSS4
VDIO4
PD0/CONNECT
PD1/XVDATA
PD2/DPLS
PD3/DMNS
PD4/TXDPLS
PD5/TXDMNS
PD6/TXENL
PD7/SUSPEND
VBUS
VDIOUS
UDM
UDP
TRON
AVSDA
VREFR
AOUTR
AOUTL
VREFL
AVDDA
XTAL
EXTAL
AVDMO
AVSOSC
TX
TEX
PinNo.
Pinposition
G15
F17
G14
E18
E17
D18
F15
C18
D17
B18
C17
E15
F14
C16
D15
B17
B16
A17
A16
A15
B15
D14
E14
B14
A14
A13
B13
A12
D13
A11
E13
B12
D12
A10
Pin function
AVDUO
AVSPLL
AVDPLL
PQ0
PQ1
PQ2
PQ3
PQ4
PQ5
PQ6
PQ7
DVSS8
VDIO7
PR0
PR1
PR2
PR3
PR4
PR5
PR6
PR7
DVSS9
VDIOMS
MSDIO
MSBS
MSSCLK
MSINS
PI7
PI0/DADT
PI1/ADDT
PI2/LRCK
PI3/XBCK
PI4/FS2S6
PI5/MUTFGL
PinNo.
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
Pinposition
E12
B11
D11
E11
A9
B9
B10
B8
D10
A8
E10
A7
D9
A6
E9
B7
E8
D8
E7
B6
D7
A5
E6
B5
A4
B4
D5
A3
D6
A2
D4
B3
Pin function
PI6/MUTFGR
DVDD3
DVSS5
VDIO5
PJ0/WAIT
PJ1/RE
PJ2/LWR/LB
PJ3/UWR/UB
PJ4/WE
PK0/CS0
PK1/CS1
PK2
PK3
PK4
PK5/CS5
PK6/CS6
PK7/CS7
DVSS6
VDIO6
PL0/A0
PL1/A1
PL2/A2
PL3/A3
PL4/A4
PL5/A5
PL6/A6
PL7/A7
PM0/A8
PM1/A9
PM2/A10
PM3/A11
DVSS0
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
– 6 –
CXR704060
Pin Functions
Symbol
PJ0/WAIT
PJ1/RE
PJ2/LWR/LB
PJ3/UWR/UB
PJ4/WE
PK0/CS0,PK1/CS1
PK2 to PK4
PK5/CS5 toPK7/CS7
PL0/A0 toPL7/A7
PM0/A8 toPM7/A15
PN0/A16 toPN7/A23
I/O
I/O / Input
I/O / Output
I/O / Output /Output
I/O / Output /Output
I/O / Output
I/O / Output
I/O
I/O / Output
I/O / Output
I/O / Output
I/O / Output
Function
(Port J)5-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(5 pins)
(Port K)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
(Port L)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
(Port M)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
(Port N)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
Wait input for external bus.
Read signal output for externalbus.
Write strobesignal outputfor D0 to D7.
Write strobesignal outputfor D8 to D15.
Write signal output for externalbus.
Chip select output for externalbus. (2 pins)
Chip select output for externalbus. (3 pins)
Address bus output for externalbus. (24 pins)
I/O power supply
VDIO0VDIO5VDIO6
Strobe signaloutput indicatesaccess to D0 toD7.
Strobe signaloutput indicatesaccess to D8 toD15.
– 7 –
CXR704060
Symbol
FAD0 to FAD7
FCLE
FALE
FWE
FRE
FWP
FCE0, FCE1
FRB0, FRB1
PP0, PP1
PO0/D0 toPO7/D7
PB0/D8 toPB7/D15
PA0/PWM
PA1/SDA
PA2/SCL
PC0/SCK0
PC1/SO0
PC2/SI0
PC3/SCS0
KDI
KRB
I/O
I/O
Output
Output
Output
Output
Output
Output
Input
I/O
I/O / I/O
I/O / I/O
I/O / Output
I/O / I/O
I/O / I/O
I/O / I/O
I/O / Output
I/O / Input
I/O / Input
Input
Input
Function
Flash memory interface data I/O.
CLE output of flash memory interface.
ALE output of flash memory interface.
WE output of flash memory interface.
RE output of flash memory interface.
WP output of flash memory interface.
CE output of flash memory interface.
RB input of flash memory interface.
(Port P)2-bit I/O port.I/O can be specified in 1-bit units.Pull-up resistor can be incorporated through program in1-bit units.(2 pins)
(Port O)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
(Port B)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
(Port A)3-bit I/O port.I/O can be specified in1-bit units.For Bit 0, pull-up resistorcan be incorporatedthrough program.(3 pins)
(Port C)4-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(4 pins)
Serial interface data input for EEPROM.
Serial interface Ready/Busy input for EEPROM.
I/O power supply
VDIODF
VDIO1VDIO2VDIO3
Data bus I/O for external bus.(16 pins)
8-bit PWM output.
I2C bus interface data I/O.
I2C bus interface clock I/O.
Serial clock (CH0) I/O.
Serial data (CH0) output.
Serial data (CH0) input.
Serial chip select (CH0) input.
– 8 –
CXR704060
Symbol
KCLK
KCS
KDO
PE0/TxD0
PE1/RxD0
PE2/TxD1
PE3/RxD1
PE4/SCK1
PE5/SO1
PE6/SI1
PE7/SCS1
PF0/EC0/INT3
PF1/T1
PF2/EC2/INT4
PF3/T3
PF4/BEEP
PG0/DACK0
PG1/DREQ0/INT5
PG2/DACK1/INT6
PG3/DREQ1/INT7
AN0 to AN5
AN6/INT8,AN7/INT9
I/O
Output
Output
Output
I/O / Output
I/O / Input
I/O / Output
I/O / Input
I/O / I/O
I/O / Output
I/O / Input
I/O / Input
I/O / Input /Input
I/O / Output
I/O / Input /Input
I/O / Output
Output /Output
I/O / Output
I/O / Input /Input
I/O / Output /Input
I/O / Input /Input
Input
Input / Input
Function
Serial interface clock output for EEPROM.
Serial interface chip select output for EEPROM.
Serial interface data output for EEPROM.
(Port E)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
(Port F)Lower 4 bits are for I/O;upper 1 bit is output-only5-bit port.For lower 4 bits, I/O canbe specified in 1-bit units.For lower 4 bits, pull-upresistor can beincorporated throughprogram in 1-bit.(5 pins)
(Port G)4-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(4 pins)
Analog input to A/D converter. (6 pins)
Analog input to A/Dconverter. (2 pins)
I/O power supply
VDIO1VDIO2VDIO3
AVDAD
UART (CH0) transmit dataoutput.
UART (CH0) receive datainput.
UART (CH1) transmit dataoutput.
UART (CH1) receive datainput.
Serial clock (CH1) I/O.
Serial data (CH1) output.
Serial data (CH1) input.
Serial chip select (CH1) input.
External eventinput to 8-bittimer (CH0).
8-bit timer (CH1) output.
External eventinput to 8-bittimer (CH2).
8-bit timer (CH3) output.
Beep output.
Transfer request acknowledgesignal output from DMAcontroller (CH0).
Transfer requestinput to DMAcontroller (CH0).
Transfer requestacknowledgesignal outputfrom DMAcontroller (CH1).
Transfer requestinput to DMAcontroller (CH1).
External interruption requestinput. (2 pins)
Externalinterruptionrequest input.
Externalinterruptionrequest input.
Externalinterruptionrequest input.
Externalinterruptionrequest input.
Externalinterruptionrequest input.
– 9 –
CXR704060
Symbol
PD0/CONNECT
PD1/XVDATA
PD2/DPLS
PD3/DMNS
PD4/TXDPLS
PD5/TXDMNS
PD6/TXENL
PD7/SUSPEND
VBUS
UDM
UDP
TRON
VREFL
AOUTL
AOUTR
VREFR
PQ0 to PQ7
PR0 to PR7
I/O
I/O / Input
I/O / Input
I/O / Input
I/O / Input
I/O / Output
I/O / Output
I/O / Output
I/O / Output
Input
I/O
I/O
Output
Output
Output
Output
Output
I/O
I/O
Function
(Port D)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
USB power signal input.(USB connection detection signal input, for internal USBtransceiver)
USB D– data I/O. (for internal USB transceiver)
USB D+ data I/O. (for internal USB transceiver)
UDP pull-up resistor connection control output.
Internal DAC reference voltage output. (Lch)
Internal DAC Lch output.
Internal DAC Rch output.
Internal DAC reference voltage output. (Rch)
(Port Q)8-bit I/O port.I/O can be specified in 1-bit units.Pull-up resistor can be incorporated through program in1-bit units. (8 pins)
(Port R)8-bit I/O port.I/O can be specified in 1-bit units.Pull-up resistor can be incorporated through program in1-bit units. (8 pins)
I/O power supply
VDIO4
VDIOUS
AVDDA
VDIO7
USB connection input.(for external USB transceiver)
USB receive data input.(for external USB transceiver)
USB D+ data input.(for external USB transceiver)
USB D– data input.(for external USB transceiver)
USB D+ data output.(for external USB transceiver)
USB D– data output.(for external USB transceiver)
USB data control output.(for external USB transceiver)
USB suspend output.(for external USB transceiver)
– 10 –
CXR704060
Symbol
PI0/DADT
PI1/ADDT
PI2/LRCK
PI3/XBCK
PI4/FS256
PI5/MUTFGL
PI6/MUTFGR
PI7
MSDIO
MSBS
MSSCLK
MSINS
TEST4
TEST2, TEST3
TEST0, TEST1
TEST6
EVA
TDI
TMS
TCK
TRST
TDO
EXTAL
XTAL
TEST5
TEX
TX
RST
RAMBK
I/O
I/O / Output
I/O / Input
I/O / I/O
I/O / I/O
I/O / Output
I/O / Output
I/O / Output
I/O
I/O
Output
Output
Input
Input
Input
Input
Output
Input
Input
Input
Input
Input
Output
Input
Output
Output
Input
Output
Input
Input
Function
(Port I)8-bit I/O port.I/O can be specified in1-bit units.Pull-up resistor can beincorporated throughprogram in 1-bit units.(8 pins)
Memory Stick interface data I/O.
Memory Stick interface bus state output.
Memory Stick interface clock output.
Memory Stick interface card detection input. (INT0)
Test input.
Test input.
Test input.
Test output.
EVA mode switching input.
Data input for JTAG boundary scanning test.
Test mode control input for JTAG boundary scanningtest.
Clock input for JTAG boundary scanning test.
Reset input for JTAG boundary scanning test.
Data output for JTAG boundary scanning test.
Oscillation connector for main oscillation.(When a clock is supplied externally, input it to EXTAL;opposite phase clock should be input to XTAL.)
Test output.
Oscillation connector for sub oscillation.(When a clock is supplied externally, input it to TEX;opposite phase clock should be input to TX.)
System reset input.
Control signal input for RAM backup.
I/O power supply
VDIO0VDIO5VDIO6
VDIOMS
VDIO1VDIO2VDIO3
VDIOJT
AVDMO
VDIO1VDIO2VDIO3
AVDUO
AVDAD
Audio data output to externalDAC. (for test output)
Audio data input from externalADC. (for test input)
L/R sampling clock I/O toexternal DAC/ADC. (44.1kHz)
Bit clock I/O to externalDAC/ADC. (2.822MHz)
256fs clock output.(11.2896MHz)
Zero data detection signaloutput. (Lch)
Zero data detection signaloutput. (Rch)
– 11 –
CXR704060
Symbol
VDBK
AVDAD
AVSAD
AVDDA
AVSDA
AVDPLL
AVSPLL
AVDMO
AVDUO
AVSOSC
VDIODF
VDIOMS
VDIOJT
VDIOUS
VDIO0 toVDIO7
DVDD0 toDVDD3
DVSS0 toDVSS9
I/O Function
Positive power supply for RAM backup.
Positive power supply for A/D converter.
GND for A/D converter.
Positive power supply for internal DAC.∗ 1
GND for internal DAC.
Positive power supply for PLL.∗ 2
GND for PLL.
Positive power supply for main clock oscillator.∗ 1
Positive power supply for sub clock oscillator.∗ 2
Main clock and sub clock oscillator GND.
Positive power supply for flash memory interface.
Positive power supply for Memory Stick interface.
Positive power supply for JTAG.
Positive power supply for USB transceiver.
I/O interface positive power supply.
Positive power supply.(Connect all four VDD pins to positive power supply.)
GND. (Connect all ten DVss pins to GND.)
I/O power supply
∗ 1 AVDDA and AVDMO must be the same potential.∗ 2 AVDPLL and AVDUO must be the same potential.
– 12 –
CXR704060
• I/O Power Supply and Pin Correspondence Table
I/O power supply
VDIO0VDIO5VDIO6
VDIODF
VDIO1VDIO2VDIO3
AVDAD
VDIOJT
VDIO4
VDIOUS
AVDDA
AVDMO
AVDUO
VDIO7
VDIOMS
Digital/Analog
Digital power supply
Digital power supply
Digital power supply
Analog power supply
Digital power supply
Digital power supply
Digital power supply
Analog power supply
Analog power supply
Analog power supply
Digital power supply
Digital power supply
Symbol
PI0/DADT, PI1/ADDT, PI2/LRCK, PI3/XBCK, PI4/FS256,PI5/MUTFGL, PI6/MUTFGR, PJ0/WAIT, PJ1/RE, PJ2/LWR/LB,PJ3/UWR/UB, PJ4/WE, PK0/CS0, PK1/CS1, PK2, PK3, PK4,PK5/CS5, PK6/CS6, PK7/CS7, PL0/A0 to PL7/A7,PM0/A8 to PM7/A15, PN0/A16 to PN7/A23
FAD0 to FAD7, FCLE, FALE, FWE, FRE, FWP, FCE0, FRB0,FCE1, FRB1
PP0, PP1, PO0/D0 to PO7/D7, PB0/D8 to PB7/D15, PA0/PWM,PA1/SDA, PA2/SCL, PC0/SCK0, PC1/SO0, PC2/SI0, PC3/SCS0,KDI, KRB, KCLK, KCS, KDO, TEST4, PE0/TxD0, PE1/RxD0,PE2/TxD1, PE3/RxD1, PE4/SCK1, PE5/SO1, PE6/SI1, PE7/SCS1,TEST5, PF0/EC0/INT3, PF1/T1, PF2/EC2/INT4, PF3/T3,PF4/BEEP, PG0/DACK0, PG1/DREQ0/INT5, PG2/DACK1/INT6,PG3/DREQ1/INT7, TEST0 to TEST3, TEST6, EVA
AN0 to AN5, AN6/INT8, AN7/INT9 (RST, RAMBK) ∗ 1
TDI, TMS, TCK, TRST, TDO
PD0/CONNECT, PD1/XVDATA, PD2/DPLS, PD3/DMNS,PD4/TXDPLS, PD5/TXDMNS, PD6/TXENL, PD7/SUSPEND,VBUS
UDM, UDP, TRON
VREFR, AOUTR, AOUTL, VREFL
XTAL, EXTAL
TX, TEX
PQ0 to PQ7, PR0 to PR7
MSDIO, MSBS, MSSCLK, MSINS, PI7
∗ 1 The H level input to RST and RAMBK must be the same potential as DVDD0 to DVDD3 and VDBK.
– 13 –
CXR704060
I/O Circuit Format for Pins
Pin Circuit format
PA0/PWM
PA1/SDAPA2/SCL
PA register
PASL register
MPX
RD
PAD register
"0" after a reset
"0" after a reset
Input data latch
Data bus
MPX
VDIO
VDIO
PWM
IP
PAPUL register
"0" after a reset
CMOSSchmitt input
PA register
PASL register
MPX
RD
"0" after a reset
Data bus
MPX
IP
SDA, SCL
PAD register
"0" after a reset
SDA, SCL
CMOSSchmitt input
Input data latch
PB register
PBSL register
MPX
RD
PBD register
"0" after a reset
"0" after a reset
Data bus
MPX
DE
VDIO
VDIO
MPX
IP
D8 to D15
PBPUL register
"0" after a reset
D8 to D15
CMOSSchmitt input
Input data latch
PB0/D8 toPB7/D15
After a reset
Hi-Z
Hi-Z
Hi-Z
– 14 –
CXR704060
Pin Circuit format
PC0/SCK0
PC1/SO0
PC register
PCSL register
MPX
RD
PCD register
"0" after a reset
"0" after a reset
Data bus
MPX
SCK0E
VDIO
VDIO
MPX
IP
SCK0
PCPUL register
"0" after a reset
SCK0
CMOSSchmitt input
Input data latch
PC register
PCSL register
MPX
RD
PCD register
"0" after a reset
"0" after a reset
Data bus
MPX
SO0E
VDIO
VDIO
MPX
IP
SO0
PCPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PC register
MPX
VDIO
VDIO
RD
PCD register
"0" after a reset
Data bus
SI0, SCS0
IP
PCPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PC2/SI0PC3/SCS0
After a reset
Hi-Z
Hi-Z
Hi-Z
– 15 –
CXR704060
Pin Circuit format
PD0/CONNECTPD1/XVDATAPD2/DPLSPD3/DMNS
PD register
MPX
VDIO
VDIO
RD
PDD register
"0" after a reset
Data bus
To USB interfaceCONNECT, XVDATA, DPLS, DMNS CONNECT, XVDATA, DPLS, DMNS
Signals from internal USB transceiver
MPX
IP
PDPUL register
"0" after a reset
PDSL register
"0" after a reset
CMOSSchmitt input
Input data latch
PD register
PDSL register
MPX
RD
PDD register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
TXDPLS, TXDMNS, TXENL, SUSPEND
IP
PDPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PD4/TXDPLSPD5/TXDMNSPD6/TXENLPD7/SUSPEND
After a reset
Hi-Z
Hi-Z
– 16 –
CXR704060
Pin Circuit format
PE0/TXD0PE2/TXD1
PE1/RXD0PE3/RXD1PE6/SI1PE7/SCS1
PE4/SCK1
PE register
PESL register
MPX
RD
PED register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
TXD0, TXD1
IP
PEPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PE register
MPX
VDIO
VDIO
RD
PED register
"0" after a reset
Data bus
RXD0, RXD1, SI1, SCS1
IP
PEPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PE register
PESL register
MPX
RD
PED register
"0" after a reset
"0" after a reset
Data bus
MPX
SCK1E
VDIO
VDIO
MPX
IP
SCK1
PEPUL register
"0" after a reset
SCK1
CMOSSchmitt input
Input data latch
After a reset
Hi-Z
Hi-Z
Hi-Z
– 17 –
CXR704060
Pin Circuit format
PE5/SO1
PF0/EC0/INT3PF2/EC2/INT4
PF1/T1PF3/T3
PE register
PESL register
MPX
RD
PED register
"0" after a reset
"0" after a reset
Data bus
MPX
SO1E
VDIO
VDIO
MPX
IP
SO1
PEPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PF register
PFSL register
MPX
RD
PFD register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
T1, T3
IP
PFPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PF register
MPX
RD
EC0,EC2
PFD register
"0" after a reset
Data bus
IP
INT3, INT4
PFPUL register
"0" after a reset
VDIO
VDIO
CMOSSchmitt input
Input data latch
After a reset
Hi-Z
Hi-Z
Hi-Z
– 18 –
CXR704060
Pin Circuit format
PF4/BEEP
PG0/DACK0
PG1/DREQ0/INT5PG3/DREQ1/INT7
PF register
PFSL register
RD
"0" after a reset
Data bus
MPX
VDIO
BEEP
BEEPE
PG register
PGSL register
MPX
RD
PGD register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
DACK0
IP
PGPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PG register
MPX
RD
DREQ0, DREQ1
PGD register
"0" after a reset
Data bus
IP
INT5, INT7
PGPUL register
"0" after a reset
VDIO
VDIO
CMOSSchmitt input
Input data latch
After a reset
Hi-Z
Hi-Z
Hi-Z
– 19 –
CXR704060
Pin Circuit format
PG2/DACK1/INT6
PI0/DADTPI4/FS256PI5/MUTFGLPI6/MUTFGR
PI1/ADDT
PG register
PGSL register
MPX
RD
PGD register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
DACK1
IP
PGPUL register
"0" after a reset
INT6
CMOSSchmitt input
Input data latch
PI register
PISL register
MPX
RD
PID register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
DADT, FS256, MUTFGL, MUTFGR
IP
PIPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PI register
MPX
VDIO
VDIO
RD
PID register
"0" after a reset
Data bus
ADDT
IP
PIPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
After a reset
Hi-Z
Hi-Z
Hi-Z
– 20 –
CXR704060
Pin Circuit format
PI2/LRCKPI3/XBCK
PI7
PJ0/WAIT
PI register
PISL register
MPX
RD
PID register
"0" after a reset
"0" after a reset
Data bus
MPX
LRCKE, XBCKE
VDIO
VDIO
MPX
IP
LRCK, XBCK
LRCK, XBCK
PIPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PI register
MPX
VDIOMS
VDIOMS
RD
PID register
"0" after a reset
Data bus
IP
PIPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PJ register
MPX
VDIO
VDIO
RD
PJD register
"0" after a reset
Data bus
WAIT
IP
PJPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
After a reset
Hi-Z
Hi-Z
Hi-Z
– 21 –
CXR704060
Pin Circuit format
PJ1/REPJ2/LWR/LBPJ3/UWR/UBPJ4/WE
PK2 to PK4
PJ register
PJSL register
MPX
RD
PJD register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
RE, LWR/LB, UWR/UB, WE
IP
PJPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PK register
PKSL register
MPX
RD
PKD register
"0" after a reset
"0" after a reset
Data bus
MPX
VDIO
VDIO
CS0, CS1, CS5 to CS7
IP
PKPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PK register
MPX
VDIO
VDIO
RD
PKD register
"0" after a reset
Data bus
IP
PKPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
After a reset
Hi-Z
Hi-Z
Hi-Z
PK0/CS0 toPK1/CS1
PK5/CS5 toPK7/CS7
– 22 –
CXR704060
Pin Circuit format
PL register
PLSL register
MPX
RD
PLD register
"0" after a reset
"0" after a reset
Data bus
MPX
AE
VDIO
VDIO
MPX
IP
A0 to A7
PLPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PM register
PMSL register
MPX
RD
PMD register
"0" after a reset
"0" after a reset
Data bus
MPX
AE
VDIO
VDIO
MPX
IP
A8 to A15
PMPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PL0/A0to
PL7/A7
PM0/A8 toPM7/A15
After a reset
Hi-Z
Hi-Z
– 23 –
CXR704060
Pin Circuit format
PN0/A16 toPN7/A23
PO0/D0to
PO7/D7
PN register
PNSL register
MPX
RD
PND register
"0" after a reset
"0" after a reset
Data bus
MPX
AE
VDIO
VDIO
MPX
IP
A16 to A23
PNPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PO register
POSL register
MPX
RD
POD register
"0" after a reset
"0" after a reset
Data bus
MPX
DE
VDIO
VDIO
MPX
IP
D0 to D7
D0 to D7
POPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PP register
MPX
VDIO
VDIO
RD
PPD register
"0" after a reset
Data bus
IP
PPPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PP0PP1
After a reset
Hi-Z
Hi-Z
Hi-Z
– 24 –
CXR704060
Pin Circuit format
PQ0 to PQ7
PR0 to PR7
AN0 to AN5
PQ register
MPX
VDIO
VDIO
RD
PQD register
"0" after a reset
Data bus
IP
PQPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
PR register
MPX
VDIO
VDIO
RD
PRD register
"0" after a reset
Data bus
IP
PRPUL register
"0" after a reset
CMOSSchmitt input
Input data latch
RST
To A/D converterAN0 to AN5
IP
RST
To A/D converterAN6, AN7
INT8, INT9
AVDAD × (0.7 ± 0.1)
IPAN6/INT8AN7/INT9
After a reset
Hi-Z
Hi-Z
Hi-Z
Hi-Z
– 25 –
CXR704060
Pin Circuit format
FAD0 to FAD7
FCLEFALEFWEFRE, FWR,FCE0, FCE1
FRB0FRB1
FAD0 to FAD7output data
FAD0 to FAD7output enable
FAD0 to FAD7pull-up control
FAD0 to FAD7input data
VDIODF
CMOSSchmitt input
VDIODF
IP
FCL, FALE, FWE, FRE, FWR, FCE0, FCE1
VDIODF
FRB0, FRB1
IP
CMOSSchmitt input
KDI, KRBIPKDIKRB
KDO
KCSKCLK KCS, KCLK
VDIO
KDO
VDIO
EVAIP
VBUSIP
EVA
VBUS
After a reset
"L" output
"L" output
"L" output
Hi-Z
"L" output
"H" output
Hi-Z
Hi-Z
– 26 –
CXR704060
Pin Circuit format
• Diagram shows the circuitconfiguration duringoscillation.
• XTAL is "H" level whenoscillation is stopped.
• Diagram shows the circuitconfiguration duringoscillation.
• TX is "H" level whenoscillation is stopped.
TRON
MSDIO
MSINS
MSBSMSSCLK
EXTALXTAL
TEXTX
TRON output data
VDIOUS
TRON output enable
MSDIO output data
MSDIO input data
MSDIO output enable
VDIOMS
IP
CMOSSchmitt input
MSBS, MSSCLK
VDIOMS
MSINSIP
EXTAL
AVDMO
XTAL
IP
TEX
AVDUO
TX
IP
After a reset
Hi-Z
Hi-Z
"L" output
Hi-Z
Oscillation
Oscillation
– 27 –
CXR704060
Pin Circuit format
RAMBK
TDITMSTCK
TDO
TRST
RST
TEST0
RAMBKIP
TDI, TMS, TCK
VDIOJT
IP
TRST
VDIOJT
IP
TDO output data
VDIOJT
TDO output enable
RST(to reset circuit)
To AN0 to AN7
IP
IP TEST0(to test circuit)
CMOSSchmitt input
TEST1 to TEST3(to test circuit)
IP
IP
VDIO
TEST4(to test circuit)
CMOSSchmitt input
TEST5, TEST6(from test circuit)
VDIO
TEST1to
TEST3
TEST4
TEST5TEST6
After a reset
Hi-Z
Pull-up
Pull-down
Hi-Z
Hi-Z
Hi-Z
"L" output
Hi-Z
Pull-down
– 28 –
CXR704060
Absolute Maximum Ratings (DVSS = 0V reference)
Item
Supply voltage
Input voltage
Output voltage
High level output current
High level total output current
Low level output current
Low level total output current
Operating temperature
Storage temperature
Allowable power dissipation
Symbol
DVDD
VDBK
AVDAD
AVDDA
AVDMO
AVDUO
AVDPLL
VDIO
VDIODF
VDIOJT
VDIOUS
VDIOMS
VIN
VINR
VOUT
IOH
ΣIOH
IOL
ΣIOL
Topr
Tstg
PD
Rating
–0.3 to +2.5
–0.3 to +2.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5
–0.3 to +4.5∗ 1
–0.3 to +2.5∗ 2
–0.3 to +4.5∗ 1
–5
–40
10
80
–20 to +70
–55 to +150
380
Unit
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
mA
mA
mA
mA
°C
°C
mW
Remarks
DVDD0, DVDD1, DVDD2, DVDD3
Power supply for backup RAM
VDIO0, VDIO1, VDIO2, VDIO3,VDIO4, VDIO5, VDIO6, VDIO7
Excludes RST and RAMBK pins
RST and RAMBK pins
Output (value per pin)
Total for all output pins
Output (value per pin)
Total for all output pins
∗ 1 VIN and VOUT must not exceed I/O supply voltage (VDIO, VDIODF, VDIOJT, VDIOUS and VDIOMS) + 0.3V.∗ 2 VINR must not exceed DVDD + 0.3V.
Note) Usage exceeding absolute maximum ratings may permanently impair the LSI.
Normal operation should be conducted under the recommended operating conditions. Exceeding these
conditions may adversely affect the reliability of the LSI.
– 29 –
CXR704060
Recommended Operating Conditions (DVSS = 0V reference)
Item
Internal supply voltage
Supply voltage forinternal RAM backup
AD converter supply voltage
DAC supply voltage
Main oscillation voltage
Sub oscillation voltage
PLL voltage
I/O voltage
JTAG voltage
FLASH I/F voltage with ECC
Memory Stick I/F voltage
USB transceiver voltage
High level input voltage
Low level input voltage
Operating temperature
Symbol
DVDD
VDBK
AVDAD
AVDDA
AVDMO
AVDUO
AVDPLL
VDIO
VDIOJT
VDIODF
VDIOMS
VDIOUS
VIHR
VIHBK
VIHS
VIHMSS
VIHDFS
VIHC
VIHJTC
VIHMSC
VIHKW
VILR
VILBK
VILS
VILMSS
VILDFS
VILC
VILJTC
VILMSC
VILKW
Topr
Min.
1.1
1.1
2.2
2.2
2.2
2.7
2.7
DVDD
1.65
2.7
2.7
3.0
0.7DVDD
0.7VDBK
0.7VDIO
0.7VDIOMS
0.7VDIODF
0.7VDIO
0.7VDIOJT
0.7VDIOMS
0.8AVDAD
0
0
0
0
0
0
0
0
0
–20
Typ.
3.3
Max.
1.3
1.3
3.3
3.3
3.3
3.3
3.3
3.6
3.3
3.6
3.6
3.45
DVDD
VDBK
VDIO
VDIOMS
VDIODF
VDIO
VDIOJT
VDIOMS
AVDAD
0.2DVDD
0.2VDBK
0.2VDIO
0.2VDIOMS
0.2VDIODF
0.2VDIO
0.2VDIOJT
0.2VDIOMS
0.6AVDAD
+70
Unit
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
°C
Remarks
DVDD0, DVDD1, DVDD2, DVDD3
∗ 1
VDIO0, VDIO1, VDIO2, VDIO3,VDIO4, VDIO5, VDIO6, VDIO7
RST pin
RAMBK pin
CMOS Schmitt trigger input∗ 2
CMOS Schmitt trigger input∗ 3
CMOS Schmitt trigger input∗ 4
CMOS input∗ 5
CMOS input∗ 6
CMOS input∗ 7
AN6 and AN7 pins∗ 8
RST pin
RAMBK pin
CMOS Schmitt trigger input∗ 2
CMOS Schmitt trigger input∗ 3
CMOS Schmitt trigger input∗ 4
CMOS input∗ 5
CMOS input∗ 6
CMOS input∗ 7
AN6 and AN7 pins∗ 8
∗ 1 VDBK should be the same voltage as DVDD (DVDD ± 0.1V or less).∗ 2 Each pin of normal input ports (PA to PE, PF0 to PF3, PG, PI0 to PI6, PJ to PR, TEST0).∗ 3 MSDIO and PI7 pins.∗ 4 FAD0 to FAD7, FRB0 and FRB1 pins.∗ 5 KDI, KRB, TEST1 to TEST4, EVA and VBUS pins.∗ 6 TDI, TMS, TCK and TRST pins.∗ 7 MSINS pins.∗ 8 Do not set AN6 and AN7 to the center potential in the steady state.
(Low level input voltage: 0 to 0.4V, High level input voltage: (AVDAD – 0.4V) to AVDAD)
– 30 –
CXR704060
Electrical Characteristics
DC Characteristics
(DVDD = VDBK = 1.1 to 1.3V, AVDAD = AVDDA = AVDMO = 2.2 to 3.3V, AVDUO = AVDPLL = 2.7 to 3.3V)
(VDIO = VDIODF = VDIOMS = 2.7 to 3.6V, VDIOJT = 2.7 to 3.3V, VDIOUS = 3.0 to 3.45V)
(Topr = –20 to +70°C, DVSS = 0V reference)
Item
High leveloutputvoltage
Low leveloutputvoltage
Symbol
VOH
VOL
Pins
PA0/PWM, PB, PD to PG,PI0 to PI6, PJ to PR ∗ 1
PI7
D0 to D15, PC0/SCK0,PC1/SO0, PC2, PC3,TXDPLS, TXDMNS, TXENL,SUSPEND, TXD0, TXD1,SCK1, SO1, BEEP, DACK0,DACK1, DADT, LRCK,XBCK, FS256, MUTFGL,MUTFGR, RE, LWR/LB,UWR/UB, WE, CS0, CS1,CS5 to CS7, A0 to A23,KDO, KCLK, KCS ∗ 2
TDO
TRON
MSDIO, MSBS, MSSCLK
FAD0 to FAD7, FCLE,FALE, FWE, FRE, FWP,FCE0, FCE1
PA0/ PWM, PB, PD to PG,PI0 to PI6, PJ to PR ∗ 1
PI7
FRB0, FRB1
PA1/ SDA, PA2/SCL,D0 to D15, PC0/SCK0,PC1/SO0, PC2, PC3,TXDPLS, TXDMNS, TXENL,SUSPEND, TXD0, TXD1,SCK1, SO1, BEEP, DACK0,DACK1, DADT, LRCK,XBCK, FS256, MUTFGL,MUTFGR, RE, LWR/LB,UWR/UB, WE, CS0, CS1,CS5 to CS7, A0 to A23,KDO, KCLK, KCS ∗ 2
TDO
Conditions
VDIO = 2.7V,IOH = –2.0mA
VDIOMS = 2.7V,IOH = –2.0mA
VDIO = 2.7V,IOH = –4.0mA
VDIOJT = 2.7V,IOH = –4.0mA
VDIOUS = 3.0V,IOH = –4.0mA
VDIOMS = 2.7V,IOH = –4.0mA
VDIODF = 2.7V,IOH = –4.0mA
VDIO = 2.7V,IOL = 2.0mA
VDIOMS = 2.7V,IOL = 2.0mA
VDIODF = 2.7V,IOL = 2.0mA
VDIO = 2.7V,IOL = 4.0mA
VDIOJT = 2.7V,IOL = 4.0mA
Min.
VDIO – 0.4
VDIOMS – 0.4
VDIO – 0.4
VDIOJT – 0.4
VDIOUS – 0.4
VDIOMS – 0.4
VDIODF – 0.4
Typ. Max.
0.4
0.4
0.4
0.4
0.4
Unit
V
V
V
V
V
V
V
V
V
V
V
V
– 31 –
CXR704060
Item
Low leveloutputvoltage
Inputcurrent
I/Oleakagecurrent
Symbol
VOL
IIL∗ 3
IZH ∗ 3
IZL
Pins
TRON
MSDIO, MSBS, MSSCLK
FAD0 to FAD7, FCLE,FALE, FWE, FRE, FWP,FCE0, FCE1
PA to PG, PI0 to PI6,PJ to PR
PI7
FAD0 to FAD7
PA to PG, PI0 to PI6,PJ to PR, KDI, KRB, KDO,KCLK, KCS,TEST0 to TEST6, EVA,VBUS
TDO
TRON
PI7, MSDIO, MSBS,MSSCLK, MSINS
FAD0 to FAD7, FCLE,FALE, FWE, FRE, FWP,FCE0, FCE1, FRB0, FRB1
AN0 to AN7
RAMBK, RST
PA to PG, PI0 to PI6,PJ to PR, KDI, KRB, KDO,KCLK, KCS,TEST0 to TEST6, EVA,VBUS
TDO
TRON
PI7, MSDIO, MSBS,MSSCLK, MSINS
Conditions
VDIOUS = 3.0V,IOL = 4.0mA
VDIOMS = 2.7V,IOL = 4.0mA
VDIODF = 2.7V,IOL = 4.0mA
VDIO = 2.7V,VIL = VSS
VDIO = 3.6V,VIL = VSS
VDIOMS = 2.7V,VIL = VSS
VDIOMS = 3.6V,VIL = VSS
VDIODF = 2.7V,VIL = VSS
VDIODF = 3.6V,VIL = VSS
VDIO = 3.6V,VI = 3.6V
VDIOJT = 3.3V,VI = 3.3V
VDIOUS = 3.45V,VI = 3.45V
VDIOMS = 3.6V,VI = 3.6V
VDIODF = 3.6V,VI = 3.6V
AVDAD = 3.3V,VI = 3.3V
VDBK = 1.3V,VI = 1.3V
VDIO = 3.6V,VI = 0V
VDIOJT = 3.3V,VI = 0V
VDIOUS = 3.45V,VI = 0V
VDIOMS = 3.6V,VI = 0V
Min.
–30
–30
–30
Typ. Max.
0.4
0.4
0.4
–150
–150
–150
10
10
10
10
10
10
10
–10
–10
–10
–10
Unit
V
V
V
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
– 32 –
CXR704060
Item
I/Oleakagecurrent
Inputcapacitance
Symbol
IZL
CIN
Pins
FAD0 to FAD7, FCLE,FALE, FWE, FRE, FWP,FCE0, FCE1, FRB0, FRB1
AN0 to AN7
RAMBK, RST
PA to PG, PI to PR,AN0 to AN7, FAD0 to FAD7,FRB0, FRB1, MSDIO,MSINS, KRB, KDI, EVA,TEST0 to TEST4, RAMBK,RST
Conditions
VDIODF = 3.6V,VI = 0V
AVDAD = 3.3V,VI = 0V
VDBK = 1.3V,VI = 0V
Clock 1MHz0V except themeasured pins
Min. Typ. Max.
–10
–10
–10
11
Unit
µA
µA
µA
pF
Item
Supplycurrent∗ 1
Symbol
IDD1
IDD2
IDDI
IDDS1
IDDS2
Pins
DVDD/VDBK
Conditions
Main execution mode∗ 2
fSRC = 22.58MHz crystal oscillation1/2 frequency division (11.29MHz)(C1 = C2 = 10pF)∗ 4
Main execution mode∗ 3
fSRC = 22.58MHz crystal oscillation(C1 = C2 = 10pF)∗ 4
Main idle modefSRC = 22.58MHz crystal oscillation(C1 = C2 = 10pF)∗ 4
Stop mode
Min.
—
—
—
—
Typ. Max.
7.5
29
6.5
300
1500
Unit
mA
mA
mA
µA
∗ 1 When all output pins are left open, this indicates the current flowing to DVDD and VDBK.∗ 2 During ATRAC3 decoding operation.∗ 3 When the arithmetic accelerator circuit is always operating.∗ 4 C1 and C2 indicate the external capacitors attached to the EXTAL and XTAL pins, respectively.
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, DVss = 0V reference)
Ta = 25°C (DVDD = 1.2V)
Ta = –20 to +50°C
4.5
—
3.5
100
—
∗ 1 When used as PA0/PWM, PB, PD to PG and PI to PO, specified at IOH = –2.0mA and IOL = 2.0mA.∗ 2 When used as PA1/SDA, PA2/SCL, PC and dual function pins, specified at IOH = –4.0mA and IOL = 4.0mA.∗ 3 The PA to PG, PI to PR and FAD0 to FAD7 pins specify the input current when the pull-up resistor is
selected, and specify the leakage current when non-resistor is selected.
– 33 –
CXR704060
Fig. 1. Main Clock Timing
AC Characteristics
(1) EXTAL pins
1) Automatic oscillation
(Topr = –20 to +70°C, DVDD = VDBK = 1.1 to 1.3V, AVDMO = 2.2 to 3.3V, AVSOSC = DVss = 0V reference)
Note) When the clock is supplied externally, input to the EXTAL pin and input an opposite phase clock to
the XTAL pin.
Item
Oscillation frequency
Symbol
fSRC
Min.
22.4
Typ.
22.5792
Max.
22.8
Unit
MHz
Conditions
2) When inputting pulses to EXTAL pin
(Topr = –20 to +70°C, DVDD = VDBK = 1.1 to 1.3V, AVDMO = 2.2 to 3.3V, AVSOSC = DVss = 0V reference)
Item
High level pulse width
Low level pulse width
Pulse period
Input high level
Input low level
Rise time, fall time
Symbol
tWHX
tWLX
tCX
VIHX
VILX
tR, tF
Min.
16
16
43.9
0.7AVDMO
Typ. Max.
44.6
0.2AVDMO
7
UnitConditions
tR tF
tCX
tWHX tWLX
EXTAL
VIHX
VIHX – (VIHX – VILX) × 0.1
VILX + (VIHX – VILX) × 0.1
AVDMO/2
VILX
ns
ns
ns
V
V
ns
– 34 –
CXR704060
Fig. 2. Sub Clock Timing
(2) TEX pin
1) Automatic oscillation
(Topr = –20 to +70°C, DVDD = VDBK = 1.1 to 1.3V, AVDUO = 2.7 to 3.3V, AVSOSC = DVss = 0V reference)
Note) When the clock is supplied externally, input to the TEX pin and input an opposite phase clock to the
TX pin.
Item
Oscillation frequency
Symbol
fTEX
Min.
8
Typ. Max.
16
Unit
MHz
Conditions
2) When inputting pulses to TEX pin
(Topr = –20 to +70°C, DVDD = VDBK = 1.1 to 1.3V, AVDUO = 2.7 to 3.3V, AVSOSC = DVss = 0V reference)
Item
High level pulse width
Low level pulse width
Pulse period
Input high level
Input low level
Rise time, fall time
Symbol
tWHTX
tWLTX
tCTX
VIHTX
VILTX
tR, tF
Min.
25
25
62.5
0.7AVDUO
Typ. Max.
125
0.2AVDUO
7
Unit
ns
ns
ns
V
V
ns
Conditions
tR tF
tCTX
tWHTX tWLTX
TEX
VIHTX
VIHTX – (VIHTX – VILTX) × 0.1
VILTX + (VIHTX – VILTX) × 0.1
AVDUO/2
VILTX
– 35 –
CXR704060
Fig. 3. Serial CH0 and CH1 Transfer Timing
3) Serial transfer (CH0, CH1)
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, VDIO = 2.7 to 3.3V, DVSS = 0V reference)
Note 1) The load capacitance of the measurement pin is 75pF.
Note 2) fSCK: Serial clock
Note 3) fPS2: PS2 clock (fPS2 = fSRC/4)
Note 4) fSCK = fPS2/2 × (Register setting value + 1): Register setting value (01h to FFh)
Item
SCK cycle time
SCK high, low pulsewidth
SI input setup time(for SCK↑ )
SI input hold time(for SCK↑ )
SCK↓ → SO delay time
Symbol
tKCY
tKH
tKL
tSIK
tKSI
tKSO
Pins
SCK0
SCK1
SCK0
SCK1
SI0
SI1
SI0
SI1
SO0
SO1
Min.
6/fPS2
1/fSCK
3/fPS2
0.5/fSCK – 5
–2/fPS2 + 5
35
2/fPS2 + 5
0
—
—
Max.
—
—
—
—
—
—
—
—
3/fPS2 + 40
5
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Conditions
Input mode
Output mode
Input mode
Output mode
SCLK input mode
SCLK output mode
SCLK input mode
SCLK output mode
SCLK input mode
SCLK output mode
tKCY
SCK0SCK1
SI0SI1
SO0SO1
Input data
Output data
tSIK
tKSO
tKSI
tKL tKH
– 36 –
CXR704060
4) Serial transfer (Memory Stick)
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, VDIOMS = 2.7 to 3.6V, DVSS = 0V reference)
Note 1) The load capacitance is 26pF.
Note 2) The oscillation of the TEX pin is at 50% duty.
Note 3) fMSCK is as follows for fSRC from the main oscillation circuit or fTEX from the sub oscillation circuit.
Item Symbol
tKCY
tKH, tKL
tBSD
tDIOD
tDIOS
tDIOH
Pins
MSSCLK
MSSCLK
MSBS
MSDIO
MSDIO
MSDIO
Min.
1000/fMSCK
500/fMSCK – 5
—
—
14
5
Max.
—
—
10
10
—
—
Unit
ns
ns
ns
ns
ns
ns
Conditions
For MSSCLK↓
For MSSCLK↓
For MSSCLK↑
For MSSCLK↑
Shift clock frequency division ratio
Main oscillation 1/2 frequency division
Main oscillation 1/4 frequency division
Sub oscillation
fMSCK [MHz]
fSRC/2
fSRC/4
fTEX
MSSCLK cycle time
MSSCLK high, low pulse width
MSBS output delay time
MSDIO output delay time
MSDIO input setup time
MSDIO input hold time
Fig. 4. Memory Stick Transfer Timing
tDIOD
tDIOS tDIOH
Output data
Input data
tBSD
Bus state output
tKL
tKCY
0.7VDIOMS
MSSCLK
MSBS
MSDIO (output)
MSDIO (input)
0.2VDIOMS
tKH
– 37 –
CXR704060
5) Flash memory interface characteristics
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, VDIODF = 2.7 to 3.3V, DVSS = 0V reference)
Note 1) "T" indicates the 1 cycle (1/fSRC) of the system clock.
Note 2) RSTB, WSTB, WSTP and WHLD indicate the register set to the flash memory interface WE/RE
timing register (FIWERETR).
See the table below for allowable setting values.
Note 3) The load capacitance of the measurement pin is 75pF.
RSTB, WSTB, WSTP and WHLD setting value
Item
FRE low pulse width
FRE↑ setup time
FRE↑ hold time
FEW low pulse width
FWE↑ setup time
FWE↑ hold time
Symbol
tRECY
tRSFA
tRHFA
tWECY
tWSFA
tWHFA
Pins
FRE
FAD[7:0]
FAD[7:0]
FWE
FAD[7:0]
FAD[7:0]
Min.
T × (RSTB setting value) – 10
35
0
T × (WSTB setting value) – 10
T × (WSTP setting value +WSTB setting value) – 10
T × (WHLD setting value) – 10
Max.
—
—
—
—
—
—
Unit
ns
ns
ns
ns
ns
ns
Conditions
Bits within FIWERETR register
[27:24]
[23:20]
[19:16]
[7:4]
Item
WSTP
WSTB
WHLD
RSTB
Allowable setting values
0h to Fh
0h to Fh
0h to Fh
0h to Fh
– 38 –
CXR704060
Fig. 5. Flash Memory Interface Transfer Timing with ECC
• During Read
• During Write
tRECY
VDIODF/2FRE
FAD[7:0]
tRSFA tRHFA
tWECY
VDIODF/2FWE
FAD[7:0]
tWSFA tWHFA
– 39 –
CXR704060
6) Bus interface unit (BIU) characteristics
• 2-cycle access AC characteristics parameter in write operation
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, VDIO = 2.7 to 3.3V, DVSS = 0V reference)
Item
Address setup time for UWR (UB) and LWR (LB) ↓
CS↓ and WE↓ setup time for UWR (UB) and LWR (LB) ↓
Address hold time for UWR (UB) and LWR (LB) ↑
CS↑ and WE↑ hold time for UWR (UB) and LWR (LB) ↑
UWR (UB) and LWR (LB) low pulse width
Data setup time for UWR (UB) and LWR (LB) ↓
Data hold time for CS↑ and WE↑
Symbol
tADULD1
tCWULD1
tULADD1
tULCWD1
tWUL1
tDULD1
tDD1
Min.
3/2fSRC – 5
3/2fSRC – 5
1/2fSRC – 5
1/2fSRC – 5
1/fSRC
1/2fSRC – 5
0
Max.
—
—
—
—
—
—
—
Unit
ns
ns
ns
ns
ns
ns
ns
Note) The load capacitance of the measurement pin is 75pF.
Tw
tWUL1
tDULD1
Valid
tDD1
T1 T2
tADULD1
Address
CS, WE
UWR, UB,LWR, LB
RD
D15 to D0
tULADD1
tCWULD1 tULCWD1
Fig. 6. 2-cycle Access Basic Timing in Write Operation
– 40 –
CXR704060
• 3-cycle access AC characteristics parameter in write operation
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, VDIO = 2.7 to 3.3V, DVSS = 0V reference)
Note) The load capacitance of the measurement pin is 75pF.
Fig. 7. 3-cycle Access Basic Timing in Write Operation
Tw
tWUL2
tDULD2
Valid
tDD2
T1 T2 T3
tADULD2
Address
CS, WE
UWR, UB,LWR, LB
RD
D15 to D0
tULADD2
tCWULD2 tULCWD2
Item
Address setup time for UWR (UB) and LWR (LB) ↓
CS↓ and WE↓ setup time for UWR (UB) and LWR (LB) ↓
Address hold time for UWR (UB) and LWR (LB) ↑
CS↑ and WE↑ hold delay time for UWR (UB) and LWR (LB) ↑
UWR (UB) and LWR (LB) low pulse width
Data setup time for UWR (UB) and LWR (LB) ↓
Data hold time for CS↑ and WE↑
Symbol
tADULD2
tCWULD2
tULADD2
tULCWD2
tWUL2
tDULD2
tDD2
Unit
ns
ns
ns
ns
ns
ns
ns
Min.
2/fSRC – 5
2/fSRC – 5
1/fSRC – 5
1/fSRC – 5
1/fSRC
1/fSRC – 5
0
Max.
—
—
—
—
—
—
—
– 41 –
CXR704060
• 2-cycle access AC characteristics parameter in read operation
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, VDIO = 2.7 to 3.3V, DVSS = 0V reference)
Item Symbol
tADULD3
tWUL3
tULADD3
tRDS1
tRDH1
Min.
1/2fSRC – 5
1/fSRC
1/2fSRC – 5
1/2fSRC + 23
0
Max.
—
—
—
—
—
Unit
ns
ns
ns
ns
ns
Note) The load capacitance of the measurement pin is 75pF.
Fig. 8. 2-cycle Access Basic Timing in Read Operation
Address, CS and WE setup time for UWR (UB) and LWR (LB) ↓
UWR (UB) and LWR (LB) low pulse width
Address, CS and WE hold time for UWR (UB), LWR (LB) ↓ and RD↓
Data setup time for UWR (UB), LWR (LB) ↑ and RD↑
Data hold time for UWR (UB), LWR (LB) ↑ and RD↑
T1 T2
tRDH1tRDS1
AddressCS, WE
UWR, UB, LWR, LB, RD
D15 to D0
tADULD3
Valid data in
tULADD3tWUL3
– 42 –
CXR704060
• 3-cycle access AC characteristics parameter in read operation
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, VDIO = 2.7 to 3.3V, DVSS = 0V reference)
Note) The load capacitance of the measurement pin is 75pF.
Fig. 9. 3-cycle Access Basic Timing in Read Operation
T1 T2 T3
tULADD4tWUL4
tRDH2
AddressCS, WE
UWR, UB, LWR, LB, RD
D15 to D0
tADULD4
Valid data in
tRDS2
Item Symbol
tADULD4
tWUL4
tULADD4
tRDS2
tRDH2
Min.
1/fSRC – 5
1/fSRC
1/fSRC – 5
24
0
Max.
—
—
—
—
—
Unit
ns
ns
ns
ns
ns
Address, CS and WE setup time for UWR (UB), LWR (LB) ↓ and RD↓
UWR (UB) and LWR (LB) low pulse width
Address, CS and WE hold time for UWR (UB), LWR (LB) ↓ and RD↓
Data setup time for UWR (UB), LWR (LB) ↑ and RD↑
Data hold time for UWR (UB), LWR (LB) ↑ and RD↑
– 43 –
CXR704060
Fig. 10. Definition of A/D Converter Terms
7) A/D converter characteristics
(Topr = –20 to +70°C, DVDD = 1.1 to 1.3V, AVDAD = 2.2 to 3.0V, DVss = 0V, AVSAD = 0V reference)
Note) fPS4 is fSRC/16 [MHz] relative to the main oscillation circuit output fSRC.
Conversion time indicates the time required from the start of conversion when one channel is selected
until the ADC interrupt request is generated, and also includes the sampling time.
Item
Resolution
Absolute error
Differential linearity error
Integral linearity error
Conversion time
Sampling time
Analog input voltage
Symbol
tCONV
tSAMP
VIAN
Pins
—
—
—
—
—
—
AN0 to AN7
Unit
Bits
LSB
LSB
LSB
µs
µs
V
Absolute error
Analog input voltage
Dig
ital c
onve
rsio
n va
lue
3FFh
3FEh
001h
000hAVDAD
A/D conversion results
Differential linearity error(Code center interval offset)
Analog input voltage
Dig
ital c
onve
rsio
n va
lue
Integral linearity error(Code center offset from AD conversion line)
A/D conversion line
Min.
—
—
—
—
19/fPS4
—
0
Typ.
—
—
—
—
—
3/fPS4
—
Max.
10
±7
±1
±3
20/fPS4
—
AVDAD
– 44 –
CXR704060
Internal DAC Specifications
1) Digital filter characteristics
Pass band
Stop band
Pass band ripple
Stop band attenuation
0 [Hz] to 20 [kHz]
24.1 to 328.7 [kHz]
±0.03 [dB] or less
54 [dB] or more
2) Analog characteristics (AVDDA = 2.4V, Ta = 25°C)
∗ 1 The output voltage is approximately 0.8AVDDA [Vp-p].
Item
S/N
THD + N
Dynamic range
Gain difference between channels
Output voltage∗ 1
Output load resistor
Analog filter cutoff frequency
Unit
dB
%
dB
dB or less
Vrms
kΩ or more
kHz
Min.
—
—
—
—
—
10
—
Typ.
92
0.015
93
0.1
666.2
—
90
Max.
—
—
—
0.15
—
—
—
– 45 –
CXR704060
Sony Corporation
SONY CODE
EIAJ CODE
JEDEC CODE PACKAGE MASS
ORGANIC SUBSTRATE PACKAGE MATERIAL
TERMINAL TREATMENT
TERMINAL MATERIAL
NICKEL & GOLD PLATING
COPPER
PACKAGE STRUCTURE
P-TFLGA-208-13.0x13.0-0.65
208PIN TFLGA
0.20 AS
13.0
x4
X
0.20
BS
13.0
0.15
PIN 1 INDEX
DETAIL XA
B
0.65
0.65
208– φ0.35 ± 0.05
φ0.08 M S AB
0.97
5
0.975
1.1MAX
S0.
20
S0.
10
0.1 MAX
(0.5
5)
(0.55)
3- 1.0
1.07
5
1.075
(0.5
5)
(0.55)
C0.3
1.07
50.
325
1.0
1.0
1.075
611 2 3 4 5 6 7 8 9 0 2 3 4 51 11 1 1 1 1 7 81 1
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
U
V
TFLGA-208P-01
0.39g
0.325
Package Outline Unit: mm